atcoder#AGC039B. [AGC039B] Graph Partition

[AGC039B] Graph Partition

Score : 500500 points

Problem Statement

Given is a connected undirected graph with NN vertices and MM edges. The vertices are numbered 11 to NN, and the edges are described by a grid of characters SS. If Si,jS_{i,j} is 1, there is an edge connecting Vertex ii and jj; otherwise, there is no such edge.

Determine whether it is possible to divide the vertices into non-empty sets V1,,VkV_1, \dots, V_k such that the following condition is satisfied. If the answer is yes, find the maximum possible number of sets, kk, in such a division.

  • Every edge connects two vertices belonging to two "adjacent" sets. More formally, for every edge (i,j)(i,j), there exists 1tk11\leq t\leq k-1 such that iVt,jVt+1i\in V_t,j\in V_{t+1} or iVt+1,jVti\in V_{t+1},j\in V_t holds.

Constraints

  • 2N2002 \leq N \leq 200
  • Si,jS_{i,j} is 0 or 1.
  • Si,iS_{i,i} is 0.
  • Si,j=Sj,iS_{i,j}=S_{j,i}
  • The given graph is connected.
  • NN is an integer.

Input

Input is given from Standard Input in the following format:

NN

S1,1...S1,NS_{1,1}...S_{1,N}

::

SN,1...SN,NS_{N,1}...S_{N,N}

Output

If it is impossible to divide the vertices into sets so that the condition is satisfied, print 1-1. Otherwise, print the maximum possible number of sets, kk, in a division that satisfies the condition.

2
01
10
2

We can put Vertex 11 in V1V_1 and Vertex 22 in V2V_2.

3
011
101
110
-1
6
010110
101001
010100
101000
100000
010000
4